.TH AUDITD.CONF "5" "August 2018" "Red Hat" "System Administration Utilities"
.SH NAME
auditd.conf \- audit daemon configuration file
.SH DESCRIPTION
The file
.I /etc/audit/auditd.conf
contains configuration information specific to the audit daemon. Each line should contain one configuration keyword, an equal sign, and then followed by appropriate configuration information. All option names and values are case insensitive. The keywords recognized are listed and described below. Each line should be limited to 160 characters or the line will be skipped. You may add comments to the file by starting the line with a '#' character.

.TP
.I local_events
This yes/no keyword specifies whether or not to include local events. Normally
you want local events so the default value is yes. Cases where you would set
this to no is when you want to aggregate events only from the network. At the
moment, this is useful if the audit daemon is running in a container. This
option can only be set once at daemon start up. Reloading the config file
has no effect.
.TP
.I log_file
This keyword specifies the full path name to the log file where audit records
will be stored. It must be a regular file.
.TP
.I write_logs
This yes/no keyword determines whether or not to write logs to the disk.
Normally you want this so the default is yes.
.TP
.I log_format
The log format describes how the information should be stored on disk. There are 2 options: raw and enriched. If set to
.IR RAW ,
the audit records will be stored in a format exactly as the kernel sends it. The
.IR ENRICHED
option will resolve all uid, gid, syscall, architecture, and socket address information before writing the event to disk. This aids in making sense of events created on one system but reported/analyzed on another system.
The 
.I NOLOG
option is now deprecated. If you were setting this format, now you should set
the write_logs option to no.
.TP
.I log_group
This keyword specifies the group that is applied to the log file's permissions. The default is root. The group name can be either numeric or spelled out.
.TP
.I priority_boost
This is a non-negative number that tells the audit daemon how much of a priority boost it should take. The default is 4. No change is 0.
.TP
.I flush
Valid values are
.IR none ", " incremental ", " incremental_async ", " data ",  and " sync ".
If set to
.IR none ,
no special effort is made to flush the audit records to disk. If set to
.IR incremental ,
Then the
.I freq
parameter is used to determine how often an explicit flush to disk is issued.
The
.IR incremental_async
parameter is very much like
.IR incremental
except the flushing is done asynchronously for higher performance. The
.I data
parameter tells the audit daemon to keep the data portion of the disk file
sync'd at all times. The
.I sync
option tells the audit daemon to keep both the data and meta-data fully
sync'd with every write to disk. The default value is incremental_async.
.TP
.I freq
This is a non-negative number that tells the audit daemon how many records to
write before issuing an explicit flush to disk command. This value is only
valid when the
.I flush
keyword is set to
.IR incremental
or incremental_async.
.TP
.I num_logs
This keyword specifies the number of log files to keep if rotate is given
as the
.I max_log_file_action.
If the number is < 2, logs are not rotated. This number must be 999 or less.
The default is 0 - which means no rotation. As you increase the number of log files being rotated, you may need to adjust the kernel backlog setting upwards since it takes more time to rotate the files. This is typically done in /etc/audit/audit.rules. If log rotation is configured to occur, the daemon will check for excess logs and remove them in effort to keep disk space available. The excess log check is only done on startup and when a reconfigure results in a space check.
.TP
.I name_format
This option controls how computer node names are inserted into the audit event stream. It has the following choices:
.IR none ", " hostname ", " fqd ", " numeric ", and " user ".
.IR None
means that no computer name is inserted into the audit event.
.IR hostname
is the name returned by the gethostname syscall. The
.IR fqd
means that it takes the hostname and resolves it with dns for a fully qualified
domain name of that machine.
.IR Numeric
is similar to fqd except it resolves the IP address of the machine. In order to use this option, you might want to test that 'hostname \-i' or 'domainname \-i' returns a numeric address. Also, this option is not recommended if dhcp is used because you could have different addresses over time for the same machine.
.IR User
is an admin defined string from the name option. The default value is
.IR none ".
.TP
.I name
This is the admin defined string that identifies the machine if
.IR user
is given as the
.IR name_format
option.
.TP
.I max_log_file
This keyword specifies the maximum file size in megabytes. When this limit
is reached, it will trigger a configurable action. The value given must be numeric.
.TP
.I max_log_file_action
This parameter tells the system what action to take when the system has
detected that the max file size limit has been reached. Valid values are
.IR ignore ", " syslog ", " suspend ", " rotate " and "keep_logs.
If set to
.IR ignore ,
the audit daemon does nothing.
.IR syslog
means that it will issue a warning to syslog.
.IR suspend
will cause the audit daemon to stop writing records to the disk. The daemon will still be alive. The
.IR rotate
option will cause the audit daemon to rotate the logs. It should be noted that logs with higher numbers are older than logs with lower numbers. This is the same convention used by the logrotate utility. The
.IR keep_logs
option is similar to rotate except it does not use the num_logs setting. This prevents audit logs from being overwritten. The effect is that logs accumulate and are not deleted \- which will trigger the
.I space_left_action
if the volume fills up. This is best used in combination with an external script used to archive logs on a periodic basis.
.TP
.I verify_email
This option determines if the email address given in
.IR action_mail_acct
is checked to see if the domain name can be resolved. This option must be given before
.IR action_mail_acct
or the default value of yes will be used.
.TP
.I action_mail_acct
This option should contain a valid email address or alias. The default address is root. If the email address is not local to the machine, you must make sure you have email properly configured on your machine and network. Also, this option requires that /usr/lib/sendmail exists on the machine.
.TP
.I space_left
If the free space in the filesystem containing
.IR log_file
drops below this value, the audit daemon takes the action specified by
.IR space_left_action .
If the value of
.IR space_left
is specified as a whole number, it is interpreted as an absolute size in megabytes (MiB).  If the value is specified as a number between 1 and 99 followed by a percentage sign (e.g., 5%), the audit daemon calculates the absolute size in megabytes based on the size of the filesystem containing
.IR log_file .
(E.g., if the filesystem containing
.IR log_file
is 2 gigabytes in size, and
.IR space_left
is set to 25%, then the audit daemon sets 
.IR space_left
to approximately 500 megabytes.  Note that this calculation is performed when the audit daemon starts, so if you resize the filesystem containing
.IR log_file
while the audit daemon is running, you should send the audit daemon SIGHUP to re-read the configuration file and recalculate the correct percentage.
.TP
.I space_left_action
This parameter tells the system what action to take when the system has
detected that it is starting to get low on disk space.
Valid values are
.IR ignore ", " syslog ", " rotate ", " email ", " exec ", " suspend ", " single ", and " halt .
If set to
.IR ignore ,
the audit daemon does nothing.
.I syslog
means that it will issue a warning to syslog.
.I rotate
will rotate logs, losing the oldest to free up space.
.I Email
means that it will send a warning to the email account specified in
.I action_mail_acct
as well as sending the message to syslog.
.I exec
/path-to-script will execute the script. You cannot pass parameters to the script. The script is also responsible for telling the auditd daemon to resume logging once its completed its action. This can be done by adding service auditd resume to the script.
.I suspend
will cause the audit daemon to stop writing records to the disk. The daemon will still be alive. The
.I single
option will cause the audit daemon to put the computer system in single user mode. The
.I halt
option will cause the audit daemon to shutdown the computer system. Except for rotate, it will perform this action just one time.
.TP
.I admin_space_left
This is a numeric value in megabytes that tells the audit daemon when
to perform a configurable action because the system
.B is running low
on disk space. This should be considered the last chance to do something before running out of disk space. The numeric value for this parameter should be lower than the number for space_left. You may also append a percent sign (e.g. 1%) to the number to have the audit daemon calculate the number based on the disk partition size.
.TP
.I admin_space_left_action
This parameter tells the system what action to take when the system has
detected that it
.B is low on disk space.
Valid values are
.IR ignore ", " syslog ", "rotate ", " email ", " exec ", " suspend ", " single ", and " halt .
If set to
.IR ignore ,
the audit daemon does nothing.
.I Syslog
means that it will issue a warning to syslog.
.I rotate
will rotate logs, losing the oldest to free up space.
.I Email
means that it will send a warning to the email account specified in
.I action_mail_acct
as well as sending the message to syslog.
.I exec
/path-to-script will execute the script. You cannot pass parameters to the script. The script is also responsible for telling the auditd daemon to resume logging once its completed its action. This can be done by adding service auditd resume to the script.
.I Suspend
will cause the audit daemon to stop writing records to the disk. The daemon will still be alive. The
.I single
option will cause the audit daemon to put the computer system in single user mode. The
.I halt
option will cause the audit daemon to shutdown the computer system. Except for rotate, it will perform this action just one time.
.TP
.I disk_full_action
This parameter tells the system what action to take when the system has
detected that the partition to which log files are written has become full. Valid values are
.IR ignore ", " syslog ", " rotate ", " exec ", " suspend ", " single ", and " halt .
If set to
.IR ignore ,
the audit daemon will issue a syslog message but no other action is taken.
.I Syslog
means that it will issue a warning to syslog.
.I rotate
will rotate logs, losing the oldest to free up space.
.I exec
/path-to-script will execute the script. You cannot pass parameters to the script. The script is also responsible for telling the auditd daemon to resume logging
g once its completed its action. This can be done by adding service auditd resume to the script.
.I Suspend
will cause the audit daemon to stop writing records to the disk. The daemon will still be alive. The
.I single
option will cause the audit daemon to put the computer system in single user mode.
.I halt
option will cause the audit daemon to shutdown the computer system.
.TP
.I disk_error_action
This parameter tells the system what action to take whenever there is an error
detected when writing audit events to disk or rotating logs. Valid values are
.IR ignore ", " syslog ", " exec ", " suspend ", " single ", and " halt .
If set to
.IR ignore ,
the audit daemon will not take any action.
.I Syslog
means that it will issue no more than 5 consecutive warnings to syslog.
.I exec
/path-to-script will execute the script. You cannot pass parameters to the script.
.I Suspend
will cause the audit daemon to stop writing records to the disk. The daemon will still be alive. The
.I single
option will cause the audit daemon to put the computer system in single user mode.
.I halt
option will cause the audit daemon to shutdown the computer system.
.TP
.I tcp_listen_port
This is a numeric value in the range 1..65535 which, if specified,
causes auditd to listen on the corresponding TCP port for audit
records from remote systems. The audit daemon may be linked with
tcp_wrappers. You may want to control access with an entry in the
hosts.allow and deny files. If this is deployed on a systemd based
OS, then you may need to adjust the 'After' directive. See the note in
the auditd.service file.
.TP
.I tcp_listen_queue
This is a numeric value which indicates how many pending (requested
but unaccepted) connections are allowed.  The default is 5.  Setting
this too small may cause connections to be rejected if too many hosts
start up at exactly the same time, such as after a power failure. This
setting is only used for aggregating servers. Clients logging to a remote
server should keep this commented out.
.TP
.I tcp_max_per_addr
This is a numeric value which indicates how many concurrent connections from
one IP address is allowed.  The default is 1 and the maximum is 1024. Setting
this too large may allow for a Denial of Service attack on the logging
server. Also note that the kernel has an internal maximum that will eventually
prevent this even if auditd allows it by config. The default should be adequate
in most cases unless a custom written recovery script runs to forward unsent
events. In this case you would increase the number only large enough to let it
in too.
.TP
.I use_libwrap
This setting determines whether or not to use tcp_wrappers to discern connection attempts that are from allowed machines. Legal values are either 
.IR yes ", or " no "
The default value is yes.
.TP
.I tcp_client_ports
This parameter may be a single numeric value or two values separated
by a dash (no spaces allowed).  It indicates which client ports are
allowed for incoming connections.  If not specified, any port is
allowed.  Allowed values are 1..65535.  For example, to require the
client use a privileged port, specify
.I 1\-1023
for this parameter. You will also need to set the local_port option in the audisp-remote.conf file. Making sure that clients send from a privileged port is a security feature to prevent log injection attacks by untrusted users.
.TP
.I tcp_client_max_idle
This parameter indicates the number of seconds that a client may be idle (i.e. no data from them at all) before auditd complains. This is used to close inactive connections if the client machine has a problem where it cannot shutdown the connection cleanly. Note that this is a global setting, and must be higher than any individual client heartbeat_timeout setting, preferably by a factor of two.  The default is zero, which disables this check.
.TP
.I transport
If set to
.IR TCP ",
only clear text tcp connections will be used. If set to
.IR KRB5 ",
then Kerberos 5 will be used for authentication and encryption. The default value is TCP.
.TP
.I enable_krb5
This option is deprecated. Use the
.IR transport
option above instead. If set to "yes", Kerberos 5 will be used for
authentication and encryption.  The default is "no". If this option is set
to "yes" and it follows the transport option, it will override the transport
setting. This would be the normal expected behavior for backwards compatibility.
.TP
.I krb5_principal
This is the principal for this server.  The default is "auditd".
Given this default, the server will look for a key named like
.I auditd/hostname@EXAMPLE.COM
stored in
.I /etc/audit/audit.key
to authenticate itself, where hostname is the canonical name for the
server's host, as returned by a DNS lookup of its IP address.
.TP
.I krb5_key_file
Location of the key for this client's principal.
Note that the key file must be owned by root and mode 0400.
The default is
.I /etc/audit/audit.key
.TP
.I distribute_network
If set to "yes", network originating events will be distributed to the audit
dispatcher for processing. The default is "no".
.TP
.I q_depth
This is a numeric value that tells how big to make the internal queue of the audit event dispatcher. A bigger queue lets it handle a flood of events better, but could hold events that are not processed when the daemon is terminated. If you get messages in syslog about events getting dropped, increase this value. The default value is 400.
.TP
.I overflow_action
This option determines how the daemon should react to overflowing its internal queue. When this happens, it means that more events are being received than it can pass along to child processes. This error means that it is going to lose the current event that it's trying to dispatch. This option has the following choices:
.IR ignore ", " syslog ", " suspend ", " single ", and " halt ".
If set to
.IR ignore ,
the audit daemon does nothing.
.I syslog
means that it will issue a warning to syslog.
.I suspend
will cause the audit daemon to stop sending events to child processes. The daemon will still be alive. The
.I single
option will cause the audit daemon to put the computer system in single user mode.
.I halt
option will cause the audit daemon to shutdown the computer system.
.TP
.I max_restarts
This is a non-negative number that tells the audit event dispatcher how many times it can try to restart a crashed plugin. The default is 10.
.TP
.I plugin_dir
This is the location that auditd will use to search for its plugin configuration files.
.TP
.I end_of_event_timeout
This is a non-negative number of seconds used by the userspace
.I auparse()
library routines and the
.I aureport(8)
,
.I ausearch(8)
utilities to consider an event is complete when parsing an event log stream. For an event stream being processed, if the time of the current event is over
.I end_of_event_timeout
seconds old, compared to co-located events, then the event is considered complete. See the NOTES section for more detail.
.SH NOTES
In a CAPP environment, the audit trail is considered so important that access to system resources must be denied if an audit trail cannot be created. In this environment, it would be suggested that /var/log/audit be on its own partition. This is to ensure that space detection is accurate and that no other process comes along and consumes part of it.
.PP
The flush parameter should be set to sync or data.
.PP
Max_log_file and num_logs need to be adjusted so that you get complete use of your partition. It should be noted that the more files that have to be rotated, the longer it takes to get back to receiving audit events. Max_log_file_action should be set to keep_logs.
.PP
Space_left should be set to a number that gives the admin enough time to react to any alert message and perform some maintenance to free up disk space. This would typically involve running the \fBaureport \-t\fP report and moving the oldest logs to an archive area. The value of space_left is site dependent since the rate at which events are generated varies with each deployment. The space_left_action is recommended to be set to email. If you need something like an snmp trap, you can use the exec option to send one.
.PP
Admin_space_left should be set to the amount of disk space on the audit partition needed for admin actions to be recorded. Admin_space_left_action would be set to single so that use of the machine is restricted to just the console.
.PP
The disk_full_action is triggered when no more room exists on the partition. All access should be terminated since no more audit capability exists. This can be set to either single or halt.
.PP
The disk_error_action should be set to syslog, single, or halt depending on your local policies regarding handling of hardware malfunctions.
.PP
Specifying a single allowed client port may make it difficult for the
client to restart their audit subsystem, as it will be unable to
recreate a connection with the same host addresses and ports until the
connection closure TIME_WAIT state times out.

.PP
Auditd events are made up of one or more records. The auditd system cannot guarantee that the set of records that make up an event will occur atomically, that is the stream will have interleaved records of different events, IE
.PP
.RS
.br
event0_record0
.br
event1_record0
.br
event2_record0
.br
event1_record3
.br
event2_record1
.br
event1_record4
.br
event3_record0
.br
.RE
.PP
The auditd system does not guarantee that the records that make up an event will appear in order. Thus, when processing event streams, we need to maintain a list of events with their own list of records hence List of List (LOL) event processing.

When processing an event stream we define the end of an event via
.P
.RS
record type = AUDIT_EOE (audit end of event type record), or
.br
record type = AUDIT_PROCTITLE (we note the AUDIT_PROCTITLE is always the last record), or
.br
record type = AUDIT_KERNEL (kernel events are one record events), or
.br
record type < AUDIT_FIRST_EVENT (only single record events appear before this type), or
.br
record type >= AUDIT_FIRST_ANOM_MSG (only single record events appear after this type), or
.br
record type >= AUDIT_MAC_UNLBL_ALLOW && record type <= AUDIT_MAC_CALIPSO_DEL (these are also one record events), or
.br
for the stream being processed, the time of the event is over end_of_event_timeout seconds old.
.RE

.SH FILES
.TP
.I /etc/audit/auditd.conf
Audit daemon configuration file

.SH "SEE ALSO"
.BR auditd (8),
.BR audisp\-remote.conf (5),
.BR auditd\-plugins (5).

.SH AUTHOR
Steve Grubb
